Multimodality Imaging Approach in Alzheimer disease. Part I: Structural MRI, Functional MRI, Diffusion Tensor Imaging and Magnetization Transfer Imaging / Abordagem e multimodalidade de imagem em doença de Alzheimer. Parte I: RM estrutural, RMI funcional, tensor de difusão e transferência de magnetização de imagens

ABSTRACT The authors make a complete review of the potential clinical applications of traditional and novel magnetic resonance imaging (MRI) techniques in the evaluation of patients with Alzheimer's disease, including structural MRI, functional MRI, diffusion tension imaging and magnetization transfer imaging.

RESUMO Os autores fazem uma revisão complete das potenciais aplicações clínicas de técnicas tradicional e inovadoras de ressonância magnética na avaliação de pacientes com doença de Alzheimer, incluindo ressonância magnética estrutural, técnicas funcionais de ressonância magnética, técnica de "diffusion tensor imaging" e imagem de transferência magnética.

Multimodality Imaging Approaches in Alzheimer's disease. Part II: 1H MR spectroscopy, FDG PET and Amyloid PET / Abordagem e multimodalidade de imagem em doença de Alzheimer. Parte II: espectroscopia, FDG-PET, e imagem Amilóide

ABSTRACT. In this Part II review, as a complement to the Part I published in this supplement, the authors cover the imaging techniques that evaluates the Alzheimer's disease according to the different metabolic and molecular profiles. In this section MR spectroscopy, FDG-PET and amyloid PET are deeply discussed.

RESUMO Nesta revisão Parte II, como complemento da revisão Parte I publicada nesta edição, os autores descrevem as técnicas de imagem que avaliam a doença de Alzheimer de acordo com os diferentes perfis metabólicos e moleculares que caracterizam esta doença. Nesta seção são discutidos em profundidade a espectroscopia por ressonância magnética, FDG-PET and imagem com marcadores de peptide beta amilóide.

Multimodality Imaging Approach in Alzheimer disease. Part I: Structural MRI, Functional MRI, Diffusion Tensor Imaging and Magnetization Transfer Imaging.

The authors make a complete review of the potential clinical applications of traditional and novel magnetic resonance imaging (MRI) techniques in the evaluation of patients with Alzheimer's disease, including structural MRI, functional MRI, diffusion tension imaging and magnetization transfer imaging.

Os autores fazem uma revisão complete das potenciais aplicações clínicas de técnicas tradicional e inovadoras de ressonância magnética na avaliação de pacientes com doença de Alzheimer, incluindo ressonância magnética estrutural, técnicas funcionais de ressonância magnética, técnica de "diffusion tensor imaging" e imagem de transferência magnética.

Multimodality Imaging Approaches in Alzheimer's disease. Part II: 1H MR spectroscopy, FDG PET and Amyloid PET.

In this Part II review, as a complement to the Part I published in this supplement, the authors cover the imaging techniques that evaluates the Alzheimer's disease according to the different metabolic and molecular profiles. In this section MR spectroscopy, FDG-PET and amyloid PET are deeply discussed.

Nesta revisão Parte II, como complemento da revisão Parte I publicada nesta edição, os autores descrevem as técnicas de imagem que avaliam a doença de Alzheimer de acordo com os diferentes perfis metabólicos e moleculares que caracterizam esta doença. Nesta seção são discutidos em profundidade a espectroscopia por ressonância magnética, FDG-PET and imagem com marcadores de peptide beta amilóide.

Adverse functional effects of chemotherapy on whole-brain metabolism: a PET/CT quantitative analysis of FDG metabolic pattern of the "chemo-brain".

PURPOSE: With its unique ability to assess function through metabolism, FDG PET may provide key insight into the adverse effects of chemotherapy on the brain by shedding light on its cognitive and psychological consequences, a well-known phenomenon in cancer patients who undergo such treatments. PATIENTS AND METHODS: Twenty-one patients with untreated non-Hodgkin lymphoma and no involvement of the central nervous system were selected from an existing database for this investigation. An adaptive threshold imaging software called ROVER was used to analyze and quantify FDG PET scans for assessing whole-brain metabolism. A 3D spherical region of interest was drawn surrounding the cerebral cortex, excluding subcortical and non-cortical areas. RESULTS: We noted a mean reduction of 1308.86 ± 394.74 SUV-cc (P = 0.03) in the whole-brain cortical glycolysis after standard chemotherapy, which translated to a decrease of 16.9 ± 5.04% (P = 0.03) in the measured structures. CONCLUSION: These results demonstrate the potential role of such adaptive quantitative techniques in studying underlying biological effects of chemotherapy and offer a promising avenue for future research in this field.